SU1122484A1 - Apparatus for lapping spherical surfaces - Google Patents

Abstract

A DEVICE FOR THE ARGANIZATION OF SPHERICAL SURFACES, containing a base with a drive mounted on it and spindles of ground-in bars located in one plane at an angle of 120 ° C; to one another, characterized in that in order to improve the processing accuracy of incomplete spherical surfaces, it is provided with a faceplate carrying a lead for the part and mounted on the base so that it can rotate around an axis perpendicular to the plane of the spindles of the spindles and interact with the discs inserted into the device, mounted on spindle x, one of which is connected to the drive.

Description

The invention relates to abrasive processing and may find application in the refinement of external spherical surfaces of various materials, including thin-walled spherical shells of low rigidity, as well as spherical parts coated with a thin hard coating or a thin diffusion layer.

A device for grinding spherical surfaces with three cup grindings located at an angle of 120 ° in the same plane, two of which have rotational motion, the third is oscillatory. The processed ball randomly rotates between lapping [1].

However, the design of the known device allows to process only full spherical surfaces. For incomplete thin-walled spherical surfaces with low rigidity, the movement of which during processing must be ordered, the known design is not suitable.

The purpose of the invention is to improve the accuracy of processing incomplete spherical surfaces.

This goal is achieved in that the device containing the base mounted on it with a drive and spindles of printers, located in one plane at an angle of 120 ° to one another, is equipped with a faceplate that carries a leash for the part and mounted on the base with the possibility of rotation around an axis perpendicular to the plane the location of the ground spindles, and the interaction with the disks inserted into the device, mounted on the spindles, one of which is connected to the drive.

In FIG. 1 shows a diagram of the proposed device; in FIG. 2 is a diagram of the fastening of the workpiece.

The device contains a base on which the faceplate 1 of the drive of the part 2 is mounted on the rack, assembled and secured to the mandrel 3 using covers 4 and nuts 5. The faceplate 1 has a socket in which the leash 6 is mounted with a sleeve 7 pressed into it with rolling bearings 8 allowing self-alignment of part 2 relative to lapping. On the spindle 9 mounted on the carriage 10, the disk 11 and lapping 12 are rigidly fixed. On the carriages 13, disks 14 and 15 of the drives 16 and 17 mounted in rotation by means of leashes 18 and 19 are mounted with the possibility of reciprocal movement ^{10 of} movement. The axes of all lapping are located at an angle of 120 ° in one plane.

The device operates as follows.

On the faceplate 1 by means of a lead 6 is set into the slot workpiece 2 by the carriages 10 and 13 to de ^ζυ hoist summed sprung laps 16 and 17 and is rigidly associated with the spindle 12. From 9 lapping motion is imparted to the spindle 9 and the disk 11. lapping 12. Due to the kinematic connection, made in the form of 25 friction or gear transmission, the rotational movement from the disk 11 is transmitted to the faceplate 1 with part 2 installed on it. From the faceplate 1, the movement is transmitted to the disks 14 and 15 and by means of leads 18 and 19 to the lapping members 16 and 17. All lapping 30 rotate in one direction. The ratio of the diameters of the disks 11, 14 and 15 and the faceplate 1 provides a difference in the speeds of rotation of the part and lapping, contributing to the uniform removal of metal from the entire surface to be treated.

⁵ The design of the proposed device is simple to manufacture and can improve the accuracy of the geometric shape of an incomplete spherical surface with a minimum allowance.

FIG. 2

ВНИИПИ Order 7804/12 Circulation 736 Subscription

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (1)

DEVICE FOR TURNING UP SPHERICAL SURFACES, containing a base with a drive and lapping spindles mounted on it, located in the same plane at an angle of 120 ° to one another, characterized in that in order to increase the accuracy of processing incomplete spherical surfaces, it is equipped with a face plate that carries a leash for the part and mounted on the base with the possibility of rotation around an axis perpendicular to the plane of location of the spindles of lapping, and interaction with the disks mounted on the spindle inserted into the device s, one of which is associated with the drive.